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- CoRR_hypothesis abstract "The CoRR hypothesis states that the location of genetic information in cytoplasmic organelles permits regulation of its expression by the reduction-oxidation ("redox") state of its gene products.CoRR is short for "co-location for redox regulation", itself a shortened form of[citation needed] "co-location (of gene and gene product) for (evolutionary) continuity of redox regulation of gene expression".CoRR was put forward explicitly in 1993 in a paper in the Journal of Theoretical Biology with the title "Control of gene expression by redox potential and the requirement for chloroplast and mitochondrial genomes". The central concept had been outlined in a review of 1992. The term CoRR was introduced in 2003 in a paper in Philosophical Transactions of the Royal Society entitled "The function of genomes in bioenergetic organelles".".
- CoRR_hypothesis wikiPageID "20134016".
- CoRR_hypothesis wikiPageRevisionID "595864783".
- CoRR_hypothesis hasPhotoCollection CoRR_hypothesis.
- CoRR_hypothesis sign "Alberts et al.".
- CoRR_hypothesis source "The Molecular Biology of the Cell. Garland Science. All editions".
- CoRR_hypothesis text "Why do mitochondria and chloroplasts require their own separate genetic systems, when other organelles that share the same cytoplasm, such as peroxisomes and lysosomes, do not? The question is not trivial, because maintaining a separate genetic system is costly: more than 90 proteins ... must be encoded by nuclear genes specifically for this purpose. ... The reason for such a costly arrangement is not clear, and the hope that the nucleotide sequences of mitochondrial and chloroplast genomes would provide the answer has proved to be unfounded. We cannot think of compelling reasons why the proteins made in mitochondria and chloroplasts should be made there rather than in the cytosol.".
- CoRR_hypothesis subject Category:Bacteria.
- CoRR_hypothesis subject Category:Cell_biology.
- CoRR_hypothesis subject Category:Eukaryotes.
- CoRR_hypothesis subject Category:Evolutionary_biology.
- CoRR_hypothesis subject Category:Genomics.
- CoRR_hypothesis subject Category:Mitochondrial_genetics.
- CoRR_hypothesis subject Category:Organelles.
- CoRR_hypothesis type BodyPart105220461.
- CoRR_hypothesis type Eukaryote101415626.
- CoRR_hypothesis type Eukaryotes.
- CoRR_hypothesis type LivingThing100004258.
- CoRR_hypothesis type Object100002684.
- CoRR_hypothesis type Organ105297523.
- CoRR_hypothesis type Organelle105445668.
- CoRR_hypothesis type Organelles.
- CoRR_hypothesis type Organism100004475.
- CoRR_hypothesis type Part109385911.
- CoRR_hypothesis type PhysicalEntity100001930.
- CoRR_hypothesis type Prokaryote101415920.
- CoRR_hypothesis type Prokaryotes.
- CoRR_hypothesis type Thing100002452.
- CoRR_hypothesis type Whole100003553.
- CoRR_hypothesis comment "The CoRR hypothesis states that the location of genetic information in cytoplasmic organelles permits regulation of its expression by the reduction-oxidation ("redox") state of its gene products.CoRR is short for "co-location for redox regulation", itself a shortened form of[citation needed] "co-location (of gene and gene product) for (evolutionary) continuity of redox regulation of gene expression".CoRR was put forward explicitly in 1993 in a paper in the Journal of Theoretical Biology with the title "Control of gene expression by redox potential and the requirement for chloroplast and mitochondrial genomes". ".
- CoRR_hypothesis label "CoRR hypothesis".
- CoRR_hypothesis sameAs m.04ygh79.
- CoRR_hypothesis sameAs Q5137543.
- CoRR_hypothesis sameAs Q5137543.
- CoRR_hypothesis sameAs CoRR_hypothesis.
- CoRR_hypothesis wasDerivedFrom CoRR_hypothesis?oldid=595864783.
- CoRR_hypothesis isPrimaryTopicOf CoRR_hypothesis.